Thomas Wriedt
[1] T. Wriedt: A Review of Elastic Light Scattering Theories. Part. Part. Syst. Charact.
15 (1998) 67-74.
[2] G. Göbel, A. Lippek, T. Wriedt,K. Bauckhage: Monte Carlo Simulation of Light
Scattering by Inhomogeneous Spheres. in M. Pinar Mengüc (Editor):
Radiative Transfer - II, Proceedings of the Second International Symposium on
Radiative Transfer, Kusadasi, Turkey, July 1997, Begell House, New York 1998.
[3] T. Wriedt, A. Doicu: Formulation of the extended boundary condition method
for three-dimensional scattering using the method of discrete sources.
Journal of Modern Optics 45 (1998) 1, 199-213.
[4] T. Wriedt, U. Comberg: Comparison of computational scattering method.
J. Quant. Spectrosc. Radiat. Transfer 60 (1998) 3, 411-423.
[5] Manasse, U.; Wriedt, T.; Bauckhage, K.: Phase Doppler sizing of optically
absorbent single- and multicomponent liquid droplets using semiconductor
devices. Meas. Sci. Technol. 4 (1993), 369-377.
[6] Göbel, G.; Wriedt, T.; Bauckhage, K.: Periodic drag force and particle size
measurement in a double ring electodynamic trap. Rev. Sci. Instrum. 68(1997) 8, 3046-3052.
[7] Rheims, J.; Wriedt, T.: Refractive-index measurements in the near-IR using
an Abbe refractometer. Measurement Science and Technology 8 (1997), 601-605.
[8] Mitschke, M.; Wriedt, T. Bauckage, K.: Standard PDA for measuring the size of
inhomogeneous droplets. Meas. Sci. Technol. 9 (1998), 197-209.
[9] Rheims, J.; Wriedt, T.; Bauckhage, K.: Sizing of inhomogeneous particles by a
differential laser Doppler anemometer. Meas. Sci. Technol. 10(1999), 68-75.
[10] Dahl, H.; Metz, H.J.; Wriedt, T.: Light scattering of silver halogenide crystals.
in Wriedt, T.; Eremin, Y.(Eds): Electromagnetic and Light Scattering - Theory and
Applications III, Proceedings of the 3rd Workshop on Electromagnetic and Light Scattering.
Bremen (1998), 51-58.
[11] Ulmke, H.; Wriedt, T.; Lohner, H.; Bauckhage, K.: The Piezoelectric Droplet
Generator: A Versatile Tool for
Dispensing Applications and Calibration of Particle Sizing Instruments. Pat McKeown et al.
(editor): Precision Engineering - Nanotechnology, Proceedings of the 1st
International euspen Conference, Vol. 2, Shaker Verlag, Aachen 1999, page 290-293.
[12] Wriedt, T.: Extension of the Null Field Method with Discrete Sources for computation
of the T-matrix of scatterers with large axial ratio. Proceedings 4th Conference on Electromagnetic and Light Scattering by Non-spherical
Particles: Theory and Applications, Vigo, Spain, 20 + 21 Sep. 1999.
[13] Doicu, A.; Eremin, Yu.A.; Wriedt, T.: Convergence of the T-matrix method for light scattering
from a particle on or near a surface. Optics Communications 159 (1999), 266-277.
[14] Wriedt, T.; Doicu, A.: Light scattering from a particle on or near a surface.
Optics Communications 152 (1998), 376-384
[15] Wriedt, T.; Doicu, A.: Comparison between various formulations of the
extended boundary condition method. Optics Communications 142 (1997), 91-98.
[16] Doicu, A.; Wriedt, T.: Extended boundary condition method with multipole
sources located in the complex plane. Optics Communications 139 (1997), 85-91.
[17] Doicu, A.; Wriedt, T.: Plane wave spectrum of electromagnetic beams.
Optics Communications 135 (1997), 114-124.
[18] Comberg, U.; Wriedt, T.: Comparison of scattering calculations for aggregated particles
based on different models.
Journal of Quantitative Spectroscopy & Radiative Transfer 63 (1999), 149-162
[19] Doicu, A.; Eremin, Yu.A. Wriedt, T.: Projection schemes in the null field method.
Journal of Quantitative Spectroscopy & Radiative Transfer 63 (1999), 175-189.